Influence of contact network parameters on value of current rise speed during short circuit in power circuits of electric rolling stock

O. A. Karzova

doi:10.15802/stp2014/23745

Authors

O. A. Karzova Dep. «Electrical Engineering and Electromechanics», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (056) 373 15 47, e-mail karzova@i.ua, Ukraine https://orcid.org/0000-0003-3607-1188

DOI:

https://doi.org/10.15802/stp2014/23745

Keywords:

contact system parameters, short circuit, current rise speed, inductance, active resistance, electric locomotives, traction substation, traction electric engines

Abstract

Purpose. Influence investigation of contact system parameters on current rate of rise during short circuit, and the difference of these parameter values under different connection diagrams of traction motors in the power circuit. Methodology. The mathematical model and method for determining the effect of the contact system parameters, such as inductance and active resistance of the contact wire, on rise speed during the short circuit current were offered. Besides that, it is determined the influence of current speeds on their difference in power circuits of DC electric locomotive in different points of short circuit, different variants of traction electric engines connection and different distances of electric locomotives from the traction substation. The proposed model and method can be used for any type of electric DC locomotive at any point of a short circuit in traction engine circuit. Findings. Qualitative and quantitative influence of contact system parameters on values of current rise speed during short circuit and on the differences value of these parameters with different connection diagram of traction electric engines was established. Originality. The investigation method concerning determination of the influence of contact system parameters on current rise speed in short circuit and on the difference of these parameters on different distances of electric locomotives from traction substation was proposed. Practical value. The results can be used in selection of protective devices of rolling stock power circuits, where the main parameter is the current rise speed during the short circuit.

Author Biography

O. A. Karzova, Dep. «Electrical Engineering and Electromechanics», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (056) 373 15 47, e-mail karzova@i.ua

О. А. Карзова

References

Bolshaya entsiklopediya transporta [Large transport encyclopedia]. Мoscow, Nauchnoye izdatelstvo «Bolshaya Rossiyskaya entsiklopednya» Publ., 2003, vol. 4, 1039 p.

Dubynets L.V., Karzova O.O., Bondarenko Yu.S. Shvydkist zminy strumu pry korotkomu zamykanni v sylovykh kolakh elektrorukhomoho skladu z urakhuvanniam vykhrovykh strumiv [Rate of change of short circuit current in the power circuits of electric rolling stock, taking into account the eddy currents]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2010, issue 34, pp. 69-72.

Dyakonov V. Maple 7. Saint Petersburg, Piter Publ., 2002. 672 p.

Karzova O.O. Vyznachennia shvydkosti zminy strumu u kolakh tiahovykh dvyhuniv elektrorukhomoho skladu pry riznykh rezhymakh roboty [Determination of current change rate in circuits of traction motors of electric rolling stock under different operating conditions]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2008, issue 24, pp. 57-60.

Kopylov I.P. Matematicheskoye modelirovaniye elektricheskikh mashin [Mathematical modeling of electrical machines]. Moscow, Vysshaya Shkola Publ., 2001. 327 p.

Solodunov A.M., Inkov Ju.M., Kovalivker G.N., Litovchenko V.V. Preobrazovatelnyye ustroystva elektropoyezdov s asinkhronnymi tyagovymi dvigatelyami [Converting electric devices with asynchronous traction motors]. Riga, Zinantne Publ., 1991. 351 p.

GOST 6962-75. Transport elektrifitsirovannyy s pitaniyem ot kontaktnoy seti. Ryad napryazheniy [State Standart 6962-75. Electrified transport with overhead catenary supply. Contact series]. Moscow, Izdatelstvo standartov, 1978. 6 p.

Ustymenko D.V. Suchasni mikrokontrolery v skhemakh rukhomoho skladu [Modern microcontrollers in the schemes of rolling stock]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2007, issue 15, pp. 47-49.

Chornyi O.P., Luhovyi A.V., Rodkin D.Y. Modeliuvannia elektromekhanichnykh system [The modeling of electromechanical systems]. Kremenchuk, 2001. 410 p.

Elektrovoz magistralnyy DE1. Tekhnicheskoye opisaniye. 3TP.000.020-03 TO [Main line electric locomotive DE1. Technical description. 3TP.000.020 TO-03.]. 1999. 188 p.

Pearce Joshua M. Open-Source Lab. How to Build Your Own Hardware and Reduce Research Costs. Elsevier Science, 2014. 244 p.

Alama K., Chakrabortyb T., Pramanik (Chaudhury) S., Sarddara D., Mal S. Measurement of Power Frequency with Higher Accuracy Using PIC Microcontroller. Computational Intelligence: Modeling Techniques and Applications (CIMTA). Kalyani, 2013, pp. 849-855.

Gil-Tomás D, Gracia-Morán J. J.-Carlos Baraza-Calvo, Luis-J. Saiz-Adalid, Pedro-J. Gil-Vicente. Studying the effects of intermittent faults on a microcontroller. Microelectronics Reliability, 2012, issue 11, pp. 2837-2846.